It's called 'free-space optical communications', and it's 1000 times faster than the radio communications currently used to communicate in space.

Project leader Associate Professor Sascha Schediwy, from The University of Western Australia node of the International Centre for Radio Astronomy Research (ICRAR), is a world expert in optical communications.

He said the project-called TeraNet-will be one of the first commercial optical communications networks in Australia.

The network will be capable of providing day-to-day support to missions in space.

Associate Professor Schediwy said the network's main commercial application will be transferring data to and from satellites orbiting the planet.

But the team also plans to explore high-speed communications in deep space, including to the Moon.

"It's about supporting all these different customers and space missions in low Earth orbit," Associate Professor Schediwy said.

"And then also being capable of advanced communications for things like NASA's Artemis missions to the Moon."

It means Western Australia could receive transmissions from the first woman and first person of colour to land on the lunar surface.

The network will be made up of two fixed ground stations at UWA and Mingenew, and a third, mobile station initially deployed at New Norcia.

Associate Professor Schediwy said NASA and other space agencies need communication stations worldwide to maintain continuous contact with missions as the Earth rotates.

"Western Australia's geography and climate means it's one of the best places in the world to host these ground stations," he said.

Associate Professor Schediwy's team, who are affiliated with UWA's International Space Centre, will build the network with industry partners Goonhilly Australia and Thales Australia

Goonhilly Earth Station chief executive Ian Jones said the company has collaborated with Associate Professor Schediwy and the UWA team for a few years to develop coherent optical ground-to-space communications.

"We are delighted to now see this move to the next exciting phase where we can assist in turning this into a technically mission-ready and commercially-operational service, especially for lunar communication," he said.

"Goonhilly is the global pioneer in commercialising lunar communications and UWA is the world leader in this technology.

"This is precisely the reason we intend to grow our business in Western Australia and help to develop the lunar economy and the Australian space economy."

Along with the support from industry partners, Associate Professor Schediwy said the Australian Space Agency funding will allow Australia to develop its own optical communications infrastructure and partner with international space agencies.

"We have this leapfrog opportunity to get there first and develop this sovereign capability," he said.

"And we can reap the benefits of having Australian industries and Australian researchers involved from day one."

One of the strongest drivers for increased data rates is the rise of advanced Earth observation and imaging satellites carrying 'hyperspectral cameras'.

These satellites take high-resolution images of the Earth's surface used for disaster management and national defence, generating huge amounts of data.

"Currently, the data on some of those satellites need to be compressed or thrown away, because the capacity is not there to downlink all that data," Associate Professor Schediwy said.

"So by expanding to optical communications, with a ground station network to support them, we'll be able to use them to their full capability."

Australian Space Agency head Enrico Palermo said the projects supported by the Agency show some of the many ways space technologies are improving how we live and work.

"By helping Australian organisations to develop their space heritage, they can break into new markets and supply chains and take their innovative Aussie technology to the world," he said.

"That will help them to grow, keep their ideas in Australia and generate more employment opportunities here."

The network is due to be completed in 2026.

Related Links
International Centre for Radio Astronomy Research
Space Technology News - Applications and Research